/*************************************************************************
 *                                                                       *
 * Open Dynamics Engine, Copyright (C) 2001-2003 Russell L. Smith.       *
 * All rights reserved.  Email: russ@q12.org   Web: www.q12.org          *
 *                                                                       *
 * This library is free software; you can redistribute it and/or         *
 * modify it under the terms of EITHER:                                  *
 *   (1) The GNU Lesser General Public License as published by the Free  *
 *       Software Foundation; either version 2.1 of the License, or (at  *
 *       your option) any later version. The text of the GNU Lesser      *
 *       General Public License is included with this library in the     *
 *       file LICENSE.TXT.                                               *
 *   (2) The BSD-style license that is included with this library in     *
 *       the file LICENSE-BSD.TXT.                                       *
 *                                                                       *
 * This library is distributed in the hope that it will be useful,       *
 * but WITHOUT ANY WARRANTY; without even the implied warranty of        *
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the files    *
 * LICENSE.TXT and LICENSE-BSD.TXT for more details.                     *
 *                                                                       *
 *************************************************************************/

/*

ODE initialization/finalization code

*/

#include <ode/common.h>
#include <ode/odeinit.h>
// <ode/objects.h> included for dWorldQuickStepCleanup()
#include <ode/objects.h>
#include "config.h"
#include "odemath.h"
#include "collision_kernel.h"
#include "collision_trimesh_internal.h"
#include "odetls.h"
#include "odeou.h"
#include "default_threading.h"


//****************************************************************************
// Initialization tracking variables

static unsigned int g_uiODEInitCounter = 0;
static unsigned int g_uiODEInitModes = 0;


#if dTRIMESH_ENABLED && dTRIMESH_OPCODE

static 
void OPCODEAbort()
{
    dICHECK(!"OPCODE Library Abort");
}


#endif // #if dTRIMESH_ENABLED && dTRIMESH_OPCODE


enum EODEINITMODE
{
    OIM__MIN,

    OIM_AUTOTLSCLEANUP = OIM__MIN,
    OIM_MANUALTLSCLEANUP,

    OIM__MAX
};

#if dTLS_ENABLED
static const EODETLSKIND g_atkTLSKindsByInitMode[OIM__MAX] =
{
    OTK_AUTOCLEANUP, // OIM_AUTOTLSCLEANUP,
    OTK_MANUALCLEANUP, // OIM_MANUALTLSCLEANUP,
};
#endif // #if dTLS_ENABLED

static inline bool IsODEModeInitialized(EODEINITMODE imInitMode)
{
    return (g_uiODEInitModes & (1U << imInitMode)) != 0;
}

static inline void SetODEModeInitialized(EODEINITMODE imInitMode)
{
    g_uiODEInitModes |= (1U << imInitMode);
}

static inline void ResetODEModeInitialized(EODEINITMODE imInitMode)
{
    g_uiODEInitModes &= ~(1U << imInitMode);
}

static inline bool IsODEAnyModeInitialized()
{
    return g_uiODEInitModes != 0;
}


enum
{
    TLD_INTERNAL_COLLISIONDATA_ALLOCATED = 0x00000001
};

static bool AllocateThreadBasicDataIfNecessary(EODEINITMODE imInitMode)
{
    bool bResult = false;

    do
    {
#if dTLS_ENABLED
        EODETLSKIND tkTlsKind = g_atkTLSKindsByInitMode[imInitMode];

        const unsigned uDataAllocationFlags = COdeTls::GetDataAllocationFlags(tkTlsKind);

        // If no flags are set it may mean that TLS slot is not allocated yet
        if (uDataAllocationFlags == 0)
        {
            // Assign zero flags to make sure that TLS slot has been allocated
            if (!COdeTls::AssignDataAllocationFlags(tkTlsKind, 0))
            {
                break;
            }
        }
#else
        (void)imInitMode; // unused
#endif // #if dTLS_ENABLED

        bResult = true;
    }
    while (false);

    return bResult;
}

static void FreeThreadBasicDataOnFailureIfNecessary(EODEINITMODE imInitMode)
{
#if dTLS_ENABLED

    if (imInitMode == OIM_MANUALTLSCLEANUP)
    {
        EODETLSKIND tkTlsKind = g_atkTLSKindsByInitMode[imInitMode];

        const unsigned uDataAllocationFlags = COdeTls::GetDataAllocationFlags(tkTlsKind);

        if (uDataAllocationFlags == 0)
        {
            // So far, only free TLS slot, if no subsystems have data allocated
            COdeTls::CleanupForThread();
        }
    }
#else
    (void)imInitMode; // unused
#endif // #if dTLS_ENABLED
}

#if dTLS_ENABLED
static bool AllocateThreadCollisionData(EODETLSKIND tkTlsKind)
{
    bool bResult = false;

    do
    {
        dIASSERT(!(COdeTls::GetDataAllocationFlags(tkTlsKind) & TLD_INTERNAL_COLLISIONDATA_ALLOCATED));

#if dTRIMESH_ENABLED 

        TrimeshCollidersCache *pccColliderCache = new TrimeshCollidersCache();
        if (!COdeTls::AssignTrimeshCollidersCache(tkTlsKind, pccColliderCache))
        {
            delete pccColliderCache;
            break;
        }

#endif // dTRIMESH_ENABLED

        COdeTls::SignalDataAllocationFlags(tkTlsKind, TLD_INTERNAL_COLLISIONDATA_ALLOCATED);

        bResult = true;
    }
    while (false);

    return bResult;
}
#endif // dTLS_ENABLED

static bool AllocateThreadCollisionDataIfNecessary(EODEINITMODE imInitMode, bool &bOutDataAllocated)
{
    bool bResult = false;
    bOutDataAllocated = false;

    do 
    {
#if dTLS_ENABLED
        EODETLSKIND tkTlsKind = g_atkTLSKindsByInitMode[imInitMode];

        const unsigned uDataAllocationFlags = COdeTls::GetDataAllocationFlags(tkTlsKind);

        if ((uDataAllocationFlags & TLD_INTERNAL_COLLISIONDATA_ALLOCATED) == 0)
        {
            if (!AllocateThreadCollisionData(tkTlsKind))
            {
                break;
            }

            bOutDataAllocated = true;
        }
#else
        (void)imInitMode; // unused
#endif // #if dTLS_ENABLED

        bResult = true;
    }
    while (false);

    return bResult;
}

static void FreeThreadCollisionData(EODEINITMODE imInitMode)
{
#if dTLS_ENABLED

    EODETLSKIND tkTlsKind = g_atkTLSKindsByInitMode[imInitMode];

    COdeTls::DestroyTrimeshCollidersCache(tkTlsKind);

    COdeTls::DropDataAllocationFlags(tkTlsKind, TLD_INTERNAL_COLLISIONDATA_ALLOCATED);
#else
    (void)imInitMode; // unused
#endif // dTLS_ENABLED
}


static bool InitODEForMode(EODEINITMODE imInitMode)
{
    bool bResult = false;

#if dOU_ENABLED
    bool bOUCustomizationsDone = false;
#endif
#if dATOMICS_ENABLED
    bool bAtomicsInitialized = false;
#endif
#if dTLS_ENABLED
    EODETLSKIND tkTLSKindToInit = g_atkTLSKindsByInitMode[imInitMode];
    bool bTlsInitialized = false;
#else
    (void)imInitMode; // unused
#endif

    bool bWorldThreadingInitialized = false;

    do
    {
        bool bAnyModeAlreadyInitialized = IsODEAnyModeInitialized();

        if (!bAnyModeAlreadyInitialized)
        {
#if dOU_ENABLED
            if (!COdeOu::DoOUCustomizations())
            {
                break;
            }

            bOUCustomizationsDone = true;
#endif

#if dATOMICS_ENABLED
            if (!COdeOu::InitializeAtomics())
            {
                break;
            }

            bAtomicsInitialized = true;
#endif
        }

#if dTLS_ENABLED
        if (!COdeTls::Initialize(tkTLSKindToInit))
        {
            break;
        }

        bTlsInitialized = true;
#endif

        if (!bAnyModeAlreadyInitialized)
        {
            if (!DefaultThreadingHolder::initializeDefaultThreading())
            {
                break;
            }

            bWorldThreadingInitialized = true;

#if dTRIMESH_ENABLED && dTRIMESH_OPCODE
            if (!Opcode::InitOpcode(&OPCODEAbort))
            {
                break;
            }
#endif

#if dTRIMESH_ENABLED && dTRIMESH_GIMPACT
            gimpact_init();
#endif

            dInitColliders();
        }

        bResult = true;
    }
    while (false);

    if (!bResult)
    {
        if (bWorldThreadingInitialized)
        {
            DefaultThreadingHolder::finalizeDefaultThreading();
        }

#if dTLS_ENABLED
        if (bTlsInitialized)
        {
            COdeTls::Finalize(tkTLSKindToInit);
        }
#endif

#if dATOMICS_ENABLED
        if (bAtomicsInitialized)
        {
            COdeOu::FinalizeAtomics();
        }
#endif

#if dOU_ENABLED
        if (bOUCustomizationsDone)
        {
            COdeOu::UndoOUCustomizations();
        }
#endif
    }

    return bResult;
}


static bool AllocateODEDataForThreadForMode(EODEINITMODE imInitMode, unsigned int uiAllocateFlags)
{
    bool bResult = false;

    bool bCollisionDataAllocated = false;

    do
    {
        if (!AllocateThreadBasicDataIfNecessary(imInitMode))
        {
            break;
        }

        if (uiAllocateFlags & dAllocateFlagCollisionData)
        {
            if (!AllocateThreadCollisionDataIfNecessary(imInitMode, bCollisionDataAllocated))
            {
                break;
            }
        }

        bResult = true;
    }
    while (false);

    if (!bResult)
    {
        if (bCollisionDataAllocated)
        {
            FreeThreadCollisionData(imInitMode);
        }

        FreeThreadBasicDataOnFailureIfNecessary(imInitMode);
    }

    return bResult;
}


static void CloseODEForMode(EODEINITMODE imInitMode)
{
    bool bAnyModeStillInitialized = IsODEAnyModeInitialized();

    if (!bAnyModeStillInitialized)
    {
        dClearPosrCache();
        dFinitUserClasses();
        dFinitColliders();

#if dTRIMESH_ENABLED && dTRIMESH_GIMPACT
        gimpact_terminate();
#endif

#if dTRIMESH_ENABLED && dTRIMESH_OPCODE
        extern void opcode_collider_cleanup();
        // Free up static allocations in opcode
        opcode_collider_cleanup();

        Opcode::CloseOpcode();
#endif

        DefaultThreadingHolder::finalizeDefaultThreading();
    }

#if dTLS_ENABLED
    EODETLSKIND tkTLSKindToFinalize = g_atkTLSKindsByInitMode[imInitMode];
    COdeTls::Finalize(tkTLSKindToFinalize);
#else
    (void)imInitMode; // unused
#endif

    if (!bAnyModeStillInitialized)
    {
#if dATOMICS_ENABLED
        COdeOu::FinalizeAtomics();
#endif

#if dOU_ENABLED
        COdeOu::UndoOUCustomizations();
#endif
    }
}


//****************************************************************************
// internal initialization and close routine implementations

static bool InternalInitODE(unsigned int uiInitFlags)
{
    bool bResult = false;

    do 
    {
        EODEINITMODE imInitMode = (uiInitFlags & dInitFlagManualThreadCleanup) ? OIM_MANUALTLSCLEANUP : OIM_AUTOTLSCLEANUP;

        if (!IsODEModeInitialized(imInitMode))
        {
            if (!InitODEForMode(imInitMode))
            {
                break;
            }

            SetODEModeInitialized(imInitMode);
        }

        ++g_uiODEInitCounter;
        bResult = true;
    }
    while (false);

    return bResult;
}

static void InternalCloseODE()
{
    unsigned int uiCurrentMode = (--g_uiODEInitCounter == 0) ? OIM__MIN : OIM__MAX;
    for (; uiCurrentMode != OIM__MAX; ++uiCurrentMode)
    {
        if (IsODEModeInitialized((EODEINITMODE)uiCurrentMode))
        {
            // Must be called before CloseODEForMode()
            ResetODEModeInitialized((EODEINITMODE)uiCurrentMode);

            // Must be called after ResetODEModeInitialized()
            CloseODEForMode((EODEINITMODE)uiCurrentMode);
        }
    }
}

static bool InternalAllocateODEDataForThread(unsigned int uiAllocateFlags)
{
    bool bAnyFailure = false;

    for (unsigned uiCurrentMode = OIM__MIN; uiCurrentMode != OIM__MAX; ++uiCurrentMode)
    {
        if (IsODEModeInitialized((EODEINITMODE)uiCurrentMode))
        {
            if (!AllocateODEDataForThreadForMode((EODEINITMODE)uiCurrentMode, uiAllocateFlags))
            {
                bAnyFailure = true;
                break;
            }
        }
    }

    bool bResult = !bAnyFailure;
    return bResult;
}

static void InternalCleanupODEAllDataForThread()
{
#if dTLS_ENABLED
    COdeTls::CleanupForThread();
#endif
}

//****************************************************************************
// initialization and shutdown routines - allocate and initialize data,
// cleanup before exiting

void dInitODE()
{
    int bInitResult = InternalInitODE(0);
    dIVERIFY(bInitResult);

    int ibAllocResult = InternalAllocateODEDataForThread(dAllocateMaskAll);
    dIVERIFY(ibAllocResult);
}

int dInitODE2(unsigned int uiInitFlags/*=0*/)
{
    bool bResult = false;

    bool bODEInitialized = false;

    do
    {
        if (!InternalInitODE(uiInitFlags))
        {
            break;
        }

        bODEInitialized = true;

        if (!InternalAllocateODEDataForThread(dAllocateFlagBasicData))
        {
            break;
        }

        bResult = true;
    }
    while (false);

    if (!bResult)
    {
        if (bODEInitialized)
        {
            InternalCloseODE();
        }
    }

    return bResult;
}


int dAllocateODEDataForThread(unsigned int uiAllocateFlags)
{
    dUASSERT(g_uiODEInitCounter != 0, "Call dInitODE2 first");

    bool bResult = InternalAllocateODEDataForThread(uiAllocateFlags);
    return bResult;
}


void dCleanupODEAllDataForThread()
{
    dUASSERT(g_uiODEInitCounter != 0, "Call dInitODE2 first or delay dCloseODE until all threads exit");

    InternalCleanupODEAllDataForThread();
}


void dCloseODE()
{
    dUASSERT(g_uiODEInitCounter != 0, "dCloseODE must not be called without dInitODE2 or if dInitODE2 fails"); // dCloseODE must not be called without dInitODE2 or if dInitODE2 fails

    InternalCloseODE();
}

